中国物理B ›› 2014, Vol. 23 ›› Issue (3): 38803-038803.doi: 10.1088/1674-1056/23/3/038803
• INTERDISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY • 上一篇
相春平a, 金玉b, 刘杰涛a, 许斌宗a, 汪卫敏a, 韦欣a, 宋国峰a, 徐云a
Xiang Chun-Ping (相春平)a, Jin Yu (金玉)b, Liu Jie-Tao (刘杰涛)a, Xu Bin-Zong (许斌宗)a, Wang Wei-Min (汪卫敏)a, Wei Xin (韦欣)a, Song Guo-Feng (宋国峰)a, Xu Yun (徐云)a
摘要: We demonstrate that the optical absorption is enhanced in small molecule organic solar cells by using a trapezoid grating structure. The enhanced absorption is mainly attributed to both waveguide modes and surface plasmon modes, which is simulated by using finite-difference time-domain method. The simulated results show that the surface plasmon along the semitransparent metallic Ag anode is excited by introducing the periodical trapezoid gratings, which induce the increase of high intensity field in the donor layer. Meanwhile, the waveguide modes result in a high intensity field in acceptor layer. The increase of field improves the absorption of organic solar cells significantly, which is demonstrated by simulating the electrical properties. The simulated results also show that the short-circuit current is increased by 31% in an optimized device, which is supported by the experimental measurement. Experimental result shows that the power conversion efficiency of the grating sample is increased by 7.7%.
中图分类号: (Organic photovoltaics)